Inhibiting the Inhibition: A Neuronal Network for Sound Localization in Reverberant Environments

Pecka, Michael; Zahn, Thomas P.; Saunier-Rebori, Bernadette; Siveke, Ida; Felmy, Felix; Wiegrebe, Lutz; Klug, Achim; Pollak, George D.; Grothe, Benedikt

doi:10.1523/jneurosci.5335-06.2007

Cited by 66 publications

(107 citation statements)

References 29 publications

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“…On an intermediate time scale, reversible changes in ILD sensitivity in the gerbil's brainstem lasting several days can be induced by noise exposure (Siveke et al 2007), which may cause homeostatic adaptation to the overall driving force or changes in the turnover and trafficking of receptors, vesicles, and proteins in the postsynaptic machinery (reviews: Bruneau et al 2006, Chen et al 2007. Such explanations only occur over the time course of several hours and are therefore unlikely mechanisms underlying the plasticity observed in this study.…”

Section: Discussionmentioning

confidence: 84%

“…The response properties established in the superior olive are then reiterated in auditory centres along the ascending neuraxis. However, numerous transformations take place which modify the basic response properties of olivary projections (Pollak et al, 2002;Pecka et al 2007). In this regard, a great deal of attentions has been focussed on the inferior colliculus which integrates a variety of both excitatory and inhibitory ascending inputs from various monaural and binaural brainstem nuclei including olivary inputs (Brunso-Bechtold et al, 1981;Oliver et al, 1995;Hutson et al, 1991).…”

Section: Introductionmentioning

confidence: 99%

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Dynamic changes in level influence spatial coding in the lateral superior olive

Park¹,

Brand

Koch

et al. 2008

Hearing Research

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It is well established that the responses of binaural auditory neurons can adapt and change dramatically depending on the nature of a preceding sound. Examples of how the effects of ensuing stimuli play a functional role in auditory processing include motion sensitivity and precedence-like effects. To date, these types of effects have been documented at the level of the midbrain and above. Little is known about sensitivity to ensuing stimuli below in the superior olivary nuclei where binaural response properties are first established. Here we report on single cell responses in the gerbil lateral superior olive, the initial site where sensitivity to interaural level differences is established. In contrast to our expectations we found a robust sensitivity to ensuing stimuli. The majority of the cells we tested (86%), showed substantial suppression and/or enhancement to a designated target stimulus, depending on the nature of a preceding stimulus. Hence, sensitivity to ensuing stimuli is already established at the first synaptic station of binaural processing.

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Section: Discussionmentioning

confidence: 84%

Section: Introductionmentioning

confidence: 99%

Dynamic changes in level influence spatial coding in the lateral superior olive

Park¹,

Brand

Koch

et al. 2008

Hearing Research

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“…Pecka et al (2007) reported synaptic GABAergic time constants elicited by a short train of fiber stimulations that may explain the time course of the observed persistent inhibition. This mechanism is further supported by the lack of clear ongoing activity in DNLL neurons for short auditory stimuli in vivo (Siveke et al, 2006;Pecka et al, 2007).…”

Section: Introductionmentioning

confidence: 97%

“…In the ascending pathways on the level of the dorsal nucleus of the lateral lemniscus (DNLL), GABAergic inputs suddenly generate an inhibition of a different time domain. Originating from DNLL neurons (Adams and Mugnaini, 1984;Roberts and Ribak, 1987;Kelly and Kidd, 2000;Burger and Pollak, 2001), this GABAergic inhibition outlasts an auditory stimulus by tens of milliseconds (Yang and Pollak, 1994;Burger and Pollak, 2001;Pecka et al, 2007). Functionally, this persistent inhibition is involved in binaural processing and has been suggested to be a basis for echo suppression Pollak, 1994, 1998;Kelly and Kidd, 2000;Burger and Pollak, 2001;Pecka et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

“…One, the "output-based" mechanism, relies on a slow time course of the GABAergic inhibitory currents between DNLL neurons and their postsynaptic target (Wu and Kelly, 1996;Pecka et al, 2007). Pecka et al (2007) reported synaptic GABAergic time constants elicited by a short train of fiber stimulations that may explain the time course of the observed persistent inhibition.…”

Section: Introductionmentioning

confidence: 99%

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NMDA Currents Modulate the Synaptic Input–Output Functions of Neurons in the Dorsal Nucleus of the Lateral Lemniscus in Mongolian Gerbils

Porres

Meyer²,

Grothe³

et al. 2011

J. Neurosci.

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Neurons in the dorsal nucleus of the lateral lemniscus (DNLL) receive excitatory and inhibitory inputs from the superior olivary complex (SOC) and convey GABAergic inhibition to the contralateral DNLL and the inferior colliculi. Unlike the fast glycinergic inhibition in the SOC, this GABAergic inhibition outlasts auditory stimulation by tens of milliseconds. Two mechanisms have been postulated to explain this persistent inhibition. One, an "integration-based" mechanism, suggests that postsynaptic excitatory integration in DNLL neurons generates prolonged activity, and the other favors the synaptic time course of the DNLL output itself. The feasibility of the integrationbased mechanism was tested in vitro in DNLL neurons of Mongolian gerbils by quantifying the cellular excitability and synaptic inputoutput functions (IO-Fs). All neurons were sustained firing and generated a near monotonic IO-F on current injections. From synaptic stimulations, we estimate that activation of approximately five fibers, each on average liberating ϳ18 vesicles, is sufficient to trigger a single postsynaptic action potential. A strong single pulse of afferent fiber stimulation triggered multiple postsynaptic action potentials. The steepness of the synaptic IO-F was dependent on the synaptic NMDA component. The synaptic NMDA receptor current defines the slope of the synaptic IO-F by enhancing the temporal and spatial EPSP summation. Blocking this NMDA-dependent amplification during postsynaptic integration of train stimulations resulted into a ϳ20% reduction of the decay time course of the GABAergic inhibition. Thus, our data show that the NMDA-dependent amplification of the postsynaptic activity contributes to the GABAergic persistent inhibition generated by DNLL neurons.

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Synaptic plasticity in the medial superior olive of hearing, deaf, and cochlear‐implanted cats

Tirko

Ryugo

2012

J of Comparative Neurology

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The medial superior olive (MSO) is a key auditory brain-stem structure that receives binaural inputs and is implicated in processing interaural time disparities used for sound localization. The deaf white cat, a proven model of congenital deafness, was used to examine how deafness and cochlear implantation affected the synaptic organization at this binaural center in the ascending auditory pathway. The patterns of axosomatic and axodendritic organization were determined for principal neurons from the MSO of hearing, deaf, and deaf cats with cochlear implants. The nature of the synapses was evaluated through electron microscopy, ultrastructure analysis of the synaptic vesicles, and immunohistochemistry. The results show that the proportion of inhibitory axosomatic terminals was significantly smaller in deaf animals when compared with hearing animals. However, after a period of electrical stimulation via cochlear implants the proportion of inhibitory inputs resembled that of hearing animals. Additionally, the excitatory axodendritic boutons of hearing cats were found to be significantly larger than those of deaf cats. Boutons of stimulated cats were significantly larger than the boutons in deaf cats, although not as large as in the hearing cats, indicating a partial recovery of excitatory inputs to MSO dendrites after stimulation. These results exemplify dynamic plasticity in the auditory brainstem and reveal that electrical stimulation through cochlear implants has a restorative effect on synaptic organization in the MSO.

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Inhibiting the Inhibition: A Neuronal Network for Sound Localization in Reverberant Environments

Cited by 66 publications

References 29 publications

Dynamic changes in level influence spatial coding in the lateral superior olive

Dynamic changes in level influence spatial coding in the lateral superior olive

NMDA Currents Modulate the Synaptic Input–Output Functions of Neurons in the Dorsal Nucleus of the Lateral Lemniscus in Mongolian Gerbils

Synaptic plasticity in the medial superior olive of hearing, deaf, and cochlear‐implanted cats

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